{-# LANGUAGE TypeFamilies , MultiParamTypeClasses , FlexibleInstances , FlexibleContexts , DeriveFunctor , GeneralizedNewtypeDeriving , UndecidableInstances , ScopedTypeVariables #-} ----------------------------------------------------------------------------- -- | -- Module : Diagrams.Path -- Copyright : (c) 2011 diagrams-lib team (see LICENSE) -- License : BSD-style (see LICENSE) -- Maintainer : diagrams-discuss@googlegroups.com -- -- This module defines /trails/ (translationally invariant sequences -- of linear or cubic Bézier segments) and /paths/ (collections of -- concretely located trails). Trails and paths can be used for -- drawing shapes, laying out other diagrams, clipping, and other -- things. -- ----------------------------------------------------------------------------- module Diagrams.Path ( -- * Constructing path-like things PathLike(..), fromSegments, fromOffsets, fromVertices, segmentsFromVertices , pathLikeFromTrail -- * Closeable things , Closeable(..) -- * Trails , Trail(..) -- ** Computing with trails , trailSegments' , trailOffsets, trailOffset , trailVertices, reverseTrail , addClosingSegment , fixTrail -- * Paths , Path(..) -- ** Constructing paths from trails , pathFromTrail , pathFromTrailAt -- ** Computing with paths , pathVertices , pathOffsets , pathCentroid , expandPath , reversePath , fixPath -- * Miscellaneous , explodeTrail , explodePath , (~~) ) where import Graphics.Rendering.Diagrams import Graphics.Rendering.Diagrams.Points import Diagrams.Align import Diagrams.Segment import Diagrams.Points import Diagrams.Transform import Data.VectorSpace import Data.AffineSpace import Control.Newtype hiding (under) import Data.Semigroup import qualified Data.Foldable as F import Data.List (mapAccumL) import Control.Arrow ((***), first, second) ------------------------------------------------------------ -- PathLike class ------------------------------------------------------------ -- | Type class for path-like things, which must be monoids. -- Instances include 'Trail's, 'Path's, and two-dimensional 'Diagram's. class (Monoid' p, VectorSpace (V p)) => PathLike p where pathLike :: Point (V p) -- ^ The starting point of the -- path. Some path-like things -- (e.g. 'Trail's) may ignore this. -> Bool -- ^ Should the path be closed? -> [Segment (V p)] -- ^ Segments of the path. -> p -- | A list of points is path-like; this instance simply computes the -- vertices of a path-like thing. instance VectorSpace v => PathLike [Point v] where pathLike start cl segs = trailVertices start (pathLike start cl segs) -- | Construct an open path-like thing with the origin as a starting -- point. fromSegments :: PathLike p => [Segment (V p)] -> p fromSegments = pathLike origin False -- | Construct an open path-like thing of linear segments from a list -- of offsets. The starting point is the origin. fromOffsets :: PathLike p => [V p] -> p fromOffsets = pathLike origin False . map Linear -- | Construct a path-like thing of linear segments from a list of -- vertices, with the first vertex as the starting point. fromVertices :: PathLike p => [Point (V p)] -> p fromVertices [] = mempty fromVertices vvs@(v:_) = pathLike v False (segmentsFromVertices vvs) -- | Construct a list of linear segments from a list of vertices. The -- input list must contain at least two points to generate a -- non-empty list of segments. segmentsFromVertices :: AdditiveGroup v => [Point v] -> [Segment v] segmentsFromVertices [] = [] segmentsFromVertices vvs@(_:vs) = map Linear (zipWith (flip (.-.)) vvs vs) ------------------------------------------------------------ -- Closeable class ------------------------------------------------------------ -- | Path-like things that can be \"open\" or \"closed\". class PathLike p => Closeable p where -- | \"Open\" a path-like thing. open :: p -> p -- | \"Close\" a path-like thing, by implicitly connecting the -- endpoint(s) back to the starting point(s). close :: p -> p instance VectorSpace v => Closeable (Trail v) where close (Trail segs _) = Trail segs True open (Trail segs _) = Trail segs False instance VectorSpace v => Closeable (Path v) where close = (over Path . map . second) close open = (over Path . map . second) open ------------------------------------------------------------ -- Trails ------------------------------------------------ ------------------------------------------------------------ -- | A /trail/ is a sequence of segments placed end-to-end. Trails -- are thus translationally invariant, and form a monoid under -- concatenation. Trails can also be /open/ (the default) or -- /closed/ (the final point in a closed trail is implicitly -- connected back to the starting point). data Trail v = Trail { trailSegments :: [Segment v] , isClosed :: Bool } deriving (Show, Functor, Eq, Ord) type instance V (Trail v) = v instance Semigroup (Trail v) where Trail t1 c1 <> Trail t2 c2 = Trail (t1 ++ t2) (c1 || c2) -- | The empty trail has no segments. Trails are composed via -- concatenation. @t1 ``mappend`` t2@ is closed iff either @t1@ or -- @t2@ are. instance Monoid (Trail v) where mempty = Trail [] False mappend = (<>) -- | Trails are 'PathLike' things. Note that since trails are -- translationally invariant, 'setStart' has no effect. -- 'fromSegments' creates an open trail. instance VectorSpace v => PathLike (Trail v) where pathLike _ cl segs = Trail segs cl instance HasLinearMap v => Transformable (Trail v) where transform t (Trail segs c) = Trail (transform t segs) c -- | The envelope for a trail is based at the trail's start. instance (InnerSpace v, OrderedField (Scalar v)) => Enveloped (Trail v) where getEnvelope (Trail segs _) = foldr (\seg bds -> moveOriginTo (P . negateV . segOffset $ seg) bds <> getEnvelope seg) mempty segs instance HasLinearMap v => Renderable (Trail v) NullBackend where render _ _ = mempty ------------------------------------------------------------ -- Computing with trails --------------------------------- ------------------------------------------------------------ -- | @trailSegments'@ is like 'trailSegments', but explicitly includes -- the implicit closing segment at the end of the list for closed trails. trailSegments' :: AdditiveGroup v => Trail v -> [Segment v] trailSegments' t | isClosed t = trailSegments t ++ [straight . negateV . trailOffset $ t] | otherwise = trailSegments t -- | Extract the offsets of the segments of a trail. trailOffsets :: Trail v -> [v] trailOffsets (Trail segs _) = map segOffset segs -- | Compute the offset from the start of a trail to the end. trailOffset :: AdditiveGroup v => Trail v -> v trailOffset = sumV . trailOffsets -- | Extract the vertices of a trail, given a concrete location at -- which to place the first vertex. trailVertices :: AdditiveGroup v => Point v -> Trail v -> [Point v] trailVertices p = scanl (.+^) p . trailOffsets -- | Reverse a trail's direction of travel. reverseTrail :: AdditiveGroup v => Trail v -> Trail v reverseTrail t@(Trail {trailSegments = []}) = t reverseTrail t@(Trail {trailSegments = ss}) | isClosed t = t { trailSegments = straight (trailOffset t) : reverseSegs ss } | otherwise = t { trailSegments = reverseSegs ss } where reverseSegs = fmap reverseSegment . reverse -- | Reverse a trail with a fixed starting point. reverseRootedTrail :: AdditiveGroup v => (Point v, Trail v) -> (Point v, Trail v) reverseRootedTrail (p, t) | isClosed t = (p, reverseTrail t) | otherwise = (p .+^ trailOffset t, reverseTrail t) -- | Convert a trail to any path-like thing. @pathLikeFromTrail@ is the -- identity on trails. pathLikeFromTrail :: PathLike p => Trail (V p) -> p pathLikeFromTrail t = pathLike origin (isClosed t) (trailSegments t) -- | If the trail is closed, this adds in the closing segment. Otherwise, -- the trail is returned unmodified. addClosingSegment :: AdditiveGroup v => Trail v -> Trail v addClosingSegment t | isClosed t = Trail (trailSegments t ++ [closeSeg]) False | otherwise = t where closeSeg = Linear . negateV $ trailOffset t -- | Convert a starting point and a trail into a list of fixed segments. fixTrail :: AdditiveGroup v => Point v -> Trail v -> [FixedSegment v] fixTrail start t = zipWith mkFixedSeg (trailVertices start t) (trailSegments $ addClosingSegment t) ------------------------------------------------------------ -- Paths ------------------------------------------------- ------------------------------------------------------------ -- | A /path/ is a (possibly empty) list of trails, with each -- trail paired with an absolute starting point. Hence, paths -- are /not/ translationally invariant, and form a monoid under -- superposition. newtype Path v = Path { pathTrails :: [(Point v, Trail v)] } deriving (Show, Semigroup, Monoid, Eq, Ord) type instance V (Path v) = v instance Newtype (Path v) [(Point v, Trail v)] where pack = Path unpack = pathTrails instance VectorSpace v => HasOrigin (Path v) where moveOriginTo = over Path . map . first . moveOriginTo -- | Paths are (of course) path-like. 'fromSegments' creates a path -- with start point at the origin. instance VectorSpace v => PathLike (Path v) where pathLike s cl segs = Path [(s, pathLike origin cl segs)] -- See Note [Transforming paths] instance HasLinearMap v => Transformable (Path v) where transform t = (over Path . map) (transform t *** transform t) {- ~~~~ Note [Transforming paths] Careful! It's tempting to just define > transform = fmap . transform but that doesn't take into account the fact that some of the v's are inside Points and hence ought to be translated. -} instance (InnerSpace v, OrderedField (Scalar v)) => Enveloped (Path v) where getEnvelope = F.foldMap trailEnvelope . pathTrails -- this type signature is necessary to work around an apparent bug in ghc 6.12.1 where trailEnvelope :: (Point v, Trail v) -> Envelope v trailEnvelope (p, t) = moveOriginTo ((-1) *. p) (getEnvelope t) instance (InnerSpace v, OrderedField (Scalar v)) => Juxtaposable (Path v) where juxtapose = juxtaposeDefault instance (InnerSpace v, OrderedField (Scalar v)) => Alignable (Path v) where alignBy = alignByDefault instance HasLinearMap v => Renderable (Path v) NullBackend where render _ _ = mempty ------------------------------------------------------------ -- Constructing paths from trails ------------------------ ------------------------------------------------------------ -- | Convert a trail to a path beginning at the origin. pathFromTrail :: AdditiveGroup v => Trail v -> Path v pathFromTrail t = Path [(origin, t)] -- | Convert a trail to a path with a particular starting point. pathFromTrailAt :: Trail v -> Point v -> Path v pathFromTrailAt t p = Path [(p, t)] ------------------------------------------------------------ -- Computing with paths ---------------------------------- ------------------------------------------------------------ -- | Extract the vertices of a path. pathVertices :: AdditiveGroup v => Path v -> [[Point v]] pathVertices = map (uncurry trailVertices) . pathTrails -- | Compute the total offset of each trail comprising a path. pathOffsets :: AdditiveGroup v => Path v -> [v] pathOffsets = map (trailOffset . snd) . pathTrails -- | Compute the /centroid/ of a path (/i.e./ the average of its -- vertices). pathCentroid :: (VectorSpace v, Fractional (Scalar v)) => Path v -> Point v pathCentroid = centroid . concat . pathVertices -- | Scale a path using its centroid (see 'pathCentroid') as the base -- point for the scale. expandPath :: (HasLinearMap v, VectorSpace v, Fractional (Scalar v), Eq (Scalar v)) => Scalar v -> Path v -> Path v expandPath d p = (scale d `under` translation (origin .-. pathCentroid p)) p -- | Reverse the direction of all the component trails of a path. reversePath :: AdditiveGroup v => Path v -> Path v reversePath = (over Path . map) reverseRootedTrail -- | Convert a path into a list of lists of 'FixedSegment's. fixPath :: AdditiveGroup v => Path v -> [[FixedSegment v]] fixPath = map (uncurry fixTrail) . unpack ------------------------------------------------------------ -- Other functions --------------------------------------- ------------------------------------------------------------ -- | Given a starting point, \"explode\" a trail by turning each -- segment (including the implicit closing segment, if the trail is -- closed) into its own separate path. Useful for (say) applying a -- different style to each segment. explodeTrail :: (VectorSpace (V p), PathLike p) => Point (V p) -> Trail (V p) -> [p] explodeTrail start = snd . mapAccumL mkPath start . trailSegments' where mkPath p seg = (p .+^ segOffset seg, pathLike p False [seg]) -- | \"Explode\" a path by exploding every component trail (see 'explodeTrail'). explodePath :: (VectorSpace (V p), PathLike p) => Path (V p) -> [[p]] explodePath = map (uncurry explodeTrail) . pathTrails -- | Create a single-segment path between two given points. (~~) :: PathLike p => Point (V p) -> Point (V p) -> p p1 ~~ p2 = fromVertices [p1, p2]